What is Remote Code Execution? Types, Impact, Technique and Prevention
What is Remote Code Execution?
Remote Code Execution (RCE) is an attack technique where an attacker can execute remote code on a target system or device while smiling from ear to ear without physical access.
In this attack, a hacker exploits system weaknesses such as software, operating systems, or network protocols to gain unauthorized access and execute malware onto the target system.
RCE attacks have been regarded as the most severe and dangerous security threats to the systems that hackers partially control and take the system over.
Once an attacker succeeds in executing an RCE vulnerability, they can then proceed to perform numerous illegal operations, including installing malware, stealing sensitive information, modifying or deletion the files, and even seizing full control of the system.
Typical service vectors for RCE assaults may result from web-app vulnerabilities, software for servers, network plug-ins, and email clients.
The attackers frequently exploit these windows of opportunity by injecting specially crafted inputs or payloads into the vulnerable system, targeting the point of input validation and execution.
How Remote Code Execution (RCE) Attacks Work?
Attackers next determine potentially vulnerable points of the target system or application that can be further used to obtain execution of remote code.
The RCE vulnerability may be associated with elements like web applications, servers, networks, or operating system kernels. When a flaw is found, they create a computer virus or an input to be able to exploit the flaw on the target computer system.
The exact payloads are often skilfully produced to lead to buffer overflows, code injection, or other types of vulnerabilities that can be utilized to acquire control of the target system’s execution flow.
The payloads are intricately combined by Attackers and sent to the target system via different channels, such as network traffic, email attachments, web forms, or contaminated websites.
Sometimes, hackers employ social engineering tactics that lie to users so that they can run malicious programs without their knowledge.
Hence, on receiving the malicious payload, if the system is compromised, the system becomes vulnerable to further exploitations. This way, the exploit allows the attacker to run arbitrary code on the system.
Through the online execution of malicious codes, the system can be compromised in many ways, including opening backdoors, stealing and modifying sensitive data, system configuration, or even launching attacks against other systems. Then, having controlled the code execution, the attacker can remotely handle it.
This control provides the attacker the possibility of further malicious activity, e.g., privilege escalation, pivoting to another system to exploit the network, or maintaining the persistence within the compromised system for future usage.
Lastly, after performing their malignant actions, hackers may attempt to hide their tracks by deleting logs or erasing their fingerprints, installing rootkits to conceal their activities, and remaining undetected in the targeted system for as long as desired.
How do Attackers use RCE?
Hackers most often use the Remote Code Execution (RCE) technique to unleash their different attacks, which may lead to the remote code execution vulnerability and penetration of the system.
Here are some ways attackers can leverage RCE:
Gain Unauthorized Access:
By discovering flaws that facilitate remote code execution, hackers are provided with a platform lacking authorization, granting access to systems of choice.
While inside, they might proceed to improve their privileges, launch backdoor accounts, or put in malware to maintain their persistent presence.
Execute Arbitrary Commands:
RCE vulnerabilities are the ones attackers can run remote commands on the failed systems. This gives a meal ticket for the attackers to plant malicious scripts, install unneeded software, or change the system configurations according to their plan.
Steal Sensitive Data:
With the RCE, the attackers can steal the highly confidential data that might be on the machines that were hacked.
This might include, by way of example, confidential documents, customers details, login credentials or intellectual properties, sequesters can be sold on the black market or used.
Launch Secondary Attacks:
Hackers, on their own part, use RCE as a point to step forward and attack other computers or networks that fall within the same surroundings. This includes malware propagation, gathering intelligence, or launching a distributed denial-of-service-DDOS attack.
Cause System Disruption:
One of the main ways RCE vulnerabilities can be exploited is that it is possible for a hacker to gain access to and disrupt critical systems or services.
This, in turn, leads to loss of time and money as well as ruining the image of the targeted company. Criminals can use ransomware, erase files, or interfere with system settings to ruin sensitive data or enterprise functionality.
Impact of Remote Code Execution Attacks
Remote Code Execution (RCE) vulnerabilities represent one of the biggest cyber security threats to the computer systems of individuals, businesses, and even nations or economies as these vulnerabilities.
Thus allowing cybercriminals to execute malicious code with administrative rights, steal data, disrupt operations, and erode confidence in different sectors.
Let’s delve into the detailed impact of RCE attacks across various dimensions:
Data Breaches
The involvement of RCE in attacks usually results in data leakages of various natures, exploiting flaws in systems or applications.
Bad actors may exploit the lack of security, steal PII, previous transaction details, and intellectual property, and make company secrets publicly unauthorizedly.
Not only that, these exposures would cause not only the company’s financial losses but also the loss of its reputation, and it will have to face fines due to the involvement of jurisdiction and legal consequences.
Compromised Systems
Another immediate effect that results from the compromised targeted apparatus is the RCE hack.
Through exploiting vulnerabilities, attackers can turn the systems to their control, execute commands, install malware, or make changes to the system configurations.
This leaves the network open to manipulations, taking the systems out of the normal range of operation and causing systemic damages that create financial hardships for the business.
Loss of Trust
Those businesses, after the RCE attacks’ experiences, end up evaluating their credibility and can lose their partners, customers, and stakeholders.
The lack of credibility in security measures and the organization’s capability to keep the data protected from hackers affects the customers’ trust towards the business entity.
Increased compliance costs, inability to compete effectively, customer churn, loss of business opportunities, and long-term damage to the brand reputation can be some of the major issues that may result from the loss of trust.
Financial Losses
RCE attacks can lead to a substantial depletion of funds in sufficient amounts for businesses to stay afloat. Such losses may include costs of responding to the attack incidents, forensic investigations, damage design, and legal fees.
Lastly, these entities could suffer legal penalties for rule violations, such as embracing data security regulations and being the respondents to the lawsuits that the affected individuals will file seeking compensation.
Operational Disruption
RCE attacks cripple heavyweight systems, services, and operations, causing shut-downs, productivity killers, and operations interruptions.
The companies will get hit by service breakdowns, delayed product launches, and disruption of supply chains, which eventually will affect their profit-making and their competitiveness in the market.
The aftermath of RCE attacks might cause operational disruptions for organizations, either large or small.
National Security Risks
There may be instances where RCE-type attacks affect critical infrastructure, government, or defense agencies. The consequences don’t end with financial losses and erosion of reputation.
RCE vulnerabilities represent national security threats, which may result in safer or even riskier ways of living, limitations of capabilities of the national defense system, or disruption of vital services.
Critical systems being threatened by Remote Code Execution (RCE) attacks can cause an imbalance within national security or stability.
Types of RCE Attacks
Remote Code Execution (RCE) attacks are disclosed in different ways, relying on different vulnerabilities or exploiting different weaknesses in the software, systems, or networks.
There are only a few RCE attack examples, and there are many of those that appear with each overcoming of a new vulnerability and gaining of a new technique by attackers who are innovating their methods:
Buffer Overflow:
A buffer overflow attack takes advantage of the programming bug that permits an attacker to overwrite the memory locations of the adjacent code with the malicious program.
The attacker will achieve maximum effect with input that is over the limit for a buffer by unlimitedly running their code and, consequently, obtaining control over the targeted system.
SQL Injection (SQLi):
SQL injection attacks aim at web applications that work with user queries without necessary validation and sanitization. Hence they leave the field open for injecting malware in such queries.
An attacker may postulate the SQL malicious code into input fields or parameters that are vulnerable and consequently infiltrate and execute arbitrary commands, get sensitive data or mess with database contents
Cross-Site Scripting (XSS):
One of the most common types of attacks is the Cross-Site Scripting (XSS) attack which occurs when an attacker puts a malicious script into web pages that other users view.
The vulnerabilities that web applications have made it possible for the attacker to insert malicious codes in the browser through improper validation and sanitization of user input.
In this way, an attacker can take over your session and steal data without your intent or perform actions that are not authorized.
Remote File Inclusion (RFI):
Remote File Inclusion (RFi) exploits vulnerabilities associated with applications that access external files or resources (like images, banners, or videos) if the user supplies them through the application.
The attackers play upon the flaws found in the application’s file inclusion technique to incorporate malicious scripts or codes from the remote addresses. This makes them capable of executing arbitrary commands on the web server.
Command Injection:
To achieve Command Injection attacks, the attackers typically target websites or other applications, including sensitive operations commands based on user input and without adequate verification or sanitization.
Attackers would inject malicious commands to input fields or parameters and exploit the weakness, leading to something like arbitrary commands or the target system and unauthorized access or system compromise.
Deserialization Vulnerabilities:
The serialization exploits are rendered by the malicious conversion of structured data into the instruction-compatible objects of the application.
The adversaries can take advantage of the opportunities that may exist in the deserialization process chain to introduce malicious instructions that either cause the execution of arbitrary code or the initializing of malicious objects that will eventually lead to remote code execution and unauthorized access.
Server-Side Request Forgery (SSRF):
By exploiting Server-Side Request Forgery, external resources usually, whether applications make HTTP requests based on specified URLs by users, can be attacked.
Criminals abuse existing security gaps to build (request data from) those internal or restricted resources, mainly for unauthorized access, data loss, or more exploitation of internal systems.
File Upload Vulnerabilities:
File upload insecurities occur when attackers make an upload of the files to the web application that the application does not validate or restrict properly.
The attackers can share the file to the server, like scripts or malware, and run an arbitrary command, giving them system control.
Remote Code Execution Exploit Techniques
The spectrum of RCE exploit techniques covers various ways hackers can run their code directly on the target machine or network.
These techniques are based on probing vulnerabilities in software, protocols, or configurations to attain unlawful access and execute malicious commands.
One prevalent form of attack is the buffer overflow technique, where the attackers infect software applications with malicious code by taking advantage of additional memory to eavesdrop on software areas adjacent to the buffer.
The other tactic is code injection, where attackers include malicious code snippets, such as script tags in the input fields or parameters, to compromise the application or underlying system.
In summary, file upload vulnerabilities allow cybercriminals to upload malicious files containing executable code. While deserialization vulnerabilities manipulate the process of converting data into objects, they can also be exploited to execute arbitrary code.
Server-side request Forgery (SSRF) and Remote File Inclusion (RFI) attacks unintendedly exploit flaws in web applications to twist the request or include remote files, allowing attackers to carry out arbitrary commands on the server.
Command injection, cross-site scripting (XSS) and other ways of getting a RCE are also going to be used.
Organizations should apply the most robust security measures to protect against the dangers of remote code execution attacks, which may lead to unauthorized access to computer systems and data breaches.
Examples of Known Remote Code Execution Vulnerabilities & Attacks
Among the numerous well-documented instances of Remote Code Execution (RCE) vulnerabilities and attacks, examples of their gravity and scope demonstrate how widespread this threat is. Some examples include:
Apache Struts RCE (Equifax Data Breach)
In the year 2017, Equifax reported a data breach, as it was exploiting a local privilege escalation vulnerability in Apache Struts, a popular assistant in developing apps.
The hackers escaped through the privilege escalation vulnerability (CVE-2017-5638), searching for and gaining unauthorized access to different systems and accessing the personal data of 147 million people.
Microsoft Exchange Server ProxyLogon Vulnerability
Microsoft publicly accounts for the Remote Code Execution Vulnerabilities in the Microsoft Exchange server, the ProxyLogon (2021-26855, 2021-26857, 2021-26858, and 2020-27065).
This constituted a broader opportunity for attacks through remote code execution from the attackers, resulting in widespread harmful use and information leaks.
EternalBlue (WannaCry Ransomware)
EternalBlue is an RCE exploit that attackers use to get a desired outcome. They target an SMB vulnerability (CVE-2017-0144).
The Shadow Brokers hacker group leaked the exploit and then it was used to launch the well-known WannaCry ransomware attack in 2017.
During this attack, the ransomware infected more than 2 lakh operating computers across the world, causing huge financial and operational costs.
Shellshock (Bash Vulnerability)
The (Bash) Shellshock is the name of a severe open-source RCE flaw. Bash assigns OS users the role of interpreting commands in the command-line interpreters.
Through this (CVE-2014-6271) leak, an attacker could run commands by utilizing bash variables with specially designed names.
The Shellshock vulnerability was found in most platforms, including server hardware and so devices, and raised security alarms at the world level for thousands of organizations.
Heartbleed (OpenSSL Vulnerability)
Heartbleed is an extreme RCE vulnerability within the widely implemented OpenSSL cryptographic library that can interfere with SSL/TLS protocol.
This weakness (CVE-2014-0160) enabled stealing sensitive information from the memory of vulnerable servers, such as private keys, passwords and session cookies, without leaving any trace in the systems.
The spread of Heartbleed increased the insecurity of millions of websites and applications. The message from this is very clear – cryptographic codes must be carefully implemented to prevent malicious acts.
Mitigation and Detection of RCE Attacks
Remote code execution attacks (RCE), malicious traffic, and signs of compromises are done by network watching and system & app behavior. Several techniques and tools can help organizations identify potential RCE exploits and mitigate their impact:
Network Traffic Analysis:
Analyzing network traffic for signs of uncommon behavior or anomaly patterns is an effective method of spotting RCE attacks, which may be directed toward backend web applications or network services.
IDS and IPS, through real-time analysis of network packet packets, will be able to detect known attack signatures, similar behavior as well as possible RCE exploits.
Log Analysis:
Auditing system logs, like event logging, web server logs, or application logging, allows for the detection of RCE blatant attempts or any unauthorized access.
System anomalies in log entries that include executing unknown system commands or privilege escalation events can indicate a compromise or systematic attempt to explore the system.
Behavioral Analysis:
Using behavioral analysis to detect abnormal program behavior and user activity that suggests exploits or RCE is a crucial step.
Algorithms based on the detection of anomalies, for example, will point at suspicious actions, e.g. out of context code execution or unauthorized access to reserved data, for further research.
Endpoint Detection and Response (EDR):
EDR solutions can analyze the end-points for the appearance of malicious activity and even the use of remote code executions.
Through round-the-clock monitoring of system processes, file activity as well as network connections, EDR tools are independent of reacting and responding to RCE exploits straight away so they prevent any possible negative impact on the systems.
Web Application Firewalls (WAFs):
Applying WAFs can be a solution to face RCE attacks and block requests for malicious payloads or patterns.
WAFs have the potential to ban intrusive queries and prevent the exploitation of known weaknesses in web apps by cybercriminals to carry out unauthorized commands.
How to Prevent Remote Code Execution?
Protecting RCE attackers will require combined efforts that will be based on safe software applications and the foundations of their system.
Here are several strategies organizations can implement to mitigate the risk of RCE:
Keep Software Up to Date:
Regularly updating operating systems, web servers, web apps, and other software components to close known gaps is one of the foremost safeguards from exploitation.
Approach automated patch management solutions to promptly perform updates and quickly implement security patches.
Secure Development Practices:
Provide secure coding, like input validation and output encoding, as well as the parameterized queries, which will prevent “injections” such as SQL injection or cross-site scripting (XSS) known as remote code execution (RCE) vulnerabilities.
Engage the programmers in secure coding practices and review the codes for potentially inherent security loopholes to be repaired early in the development process.
Least Privilege Principle:
Reduce user and system permissions to only those privileges required to perform the work and do not grant access to system administrator functions that are not important to the job responsibility.
Smaller the attack surface, the user has only the permissions which are necessary for them to do their job, therefore it is difficult for the attackers to succeed in their quest.
Network Segmentation:
Sub-divide the network into segments and execute a firewall separating critical network systems from untrusted networks and external threats.
Implement network segmentation to seal off-network flows and limit attackers’ movement laterally within the system should there be a breach that would disable RCE from spreading across separate segments of the network.
Web Application Firewalls (WAFs):
Provide WAFs for web application protection from well-known RCE attack vectors – such as SQL injection, command injection, and file inclusion hack.
Establish WAF policies to analyze HTTP requests that contain malevolent payloads and prohibit shady traffic before the incoming data is rendered into the web server, thus minimizing the risks of receiving RCE at the application layer.
Content Security Policies (CSP):
Specify headers such as Content Security Policies (CSP) to prevent malicious content execution or loading, for example, scripts, while still facilitating the use of legitimate web applications.
Use CSP directives such as whitelisting to deliver security-critical content from trusted sources and domains. That is the reason CSP prevents attackers from injecting malicious code into web pages, ensuring the protection of a webpage.
Input Validation and Sanitization:
Make sure to validate and cleanse all the user-generated input, including any malicious payloads, to ensure that those are not processed or executed by any web application.
Validate any user input with regular expressions and data validation libraries in order to have the exact formats and restrictions as well thus, the hope of reduced risk of RCE vulnerabilities will increase.
Security Awareness Training:
With Training and being informed of the dangers of RCE attacks, the employees and the end users should learn to identify and report suspicious activities, which include spoofing emails and malicious links.
Sensitize end-users to extensively follow suitable cybersecurity measures, like not clicking on strange links or downloading files from unreliable sources, to fight back against RCE exploits targeting the end-user systems.
Network and Endpoint Security Controls:
Use in-line network intrusion detection and prevention systems (IDS/IPS) to spot RCE attacks within network traffic and block related fraudulent activity here and now.
Employ endpoint protection solutions like antivirus software, host-based firewalls, and endpoint detection and response (EDR), to find and prevent RCE attacks hitting devices and endpoints one by one.
Regular Security Audits and Penetration Testing:
Perform security audits, vulnerability assessments and penetration tests on a regular basis to find out the existing systems and applications RCE vulnerabilities and take remediation actions.
Automated vulnerability scanners, along with manual testing techniques to trace out the secret gaps in the architecture that can be abused by adversaries and patch up the severity of risk and the impact on the basis of the priority.
Conclusion
Nowadays, in the field of cyber security, it should remain the main focus for software developers and users due to the rising remote code execution (RCE) abuse possibilities.
In an RCE security threat scenario, the attacker can remotely launch code on the system, which allows them to steal user data, system access, and other confidential information.
In order to minimize these threats, developers, as well as agencies, should ensure the implementation of security measures such as code signing considering security measures such as code signing.
Through SignMyCode, with our digital signature security and epitomizing the best practice for protection, developers, and applications can withstand the RCE aspirants to improve their defenses and protect their users and applications against cyber threats.
Trusted Code Signing Certificates
Prevent Code Tampering and Authenticate Code Integrity by Digitally Sign your Code with Trusted Code Signing Certificates.
Get Code Signing Certificate